Transcription factors and DNA replication /

Bibliographic Details
Main Author: Pederson, David Scott, 1953-
Other Authors: Heintz, Nicholas H., 1948-
Format: Book
Language:English
Published: Austin, Tex. : R.G. Landes Co., 1994.
Series:Molecular biology intelligence unit.
Subjects:
Table of Contents:
  • Initiation of DNA synthesis: a general model from studies with prokaryotes
  • Escherichia coli oriC
  • Lambda phage origin: a familiar refrain
  • Regulatory transcription factors and the initiation of transcription in eukaryotic cells
  • Assembly of transcription initiation complexes at eukaryotic promoters
  • Interactions between regulatory factors and histones, and the role of nucleosomes in repression of transcription
  • Relief of nucleosome-mediated repression of transcription: a paradigm for the role of regulatory factors at replication origins.
  • Nucleosomes influence the order and rate-limiting steps in the assembly of transcription initiation complexes in cells
  • Regulation of transcription factors
  • Replication origins and the initiation of DNA synthesis in mammalian cells and their viruses
  • Adenovirus DNA replication
  • Papovavirus DNA replication
  • SV40 DNA replication
  • Replication origin of polyoma virus
  • Bovine papillomavirus replication
  • Epstein-Barr virus origins of replication
  • Mammalian chromosomal origins of replication.
  • DNA replication in yeast
  • Discovery and dissection of ARS elements
  • Role of the origin recognition complex (ORC)
  • Role of regulatory factors that bind or act at replication origins
  • DNA unwinding and the initiation of replication
  • Cellular mechanisms that influence origin function and time of activation
  • Stochastic features in the control of ARS activity
  • Position effects in the control of ARS activity
  • Position effects in the control of ARS activity
  • Position effects on the time of activation of ARSs during S phase.
  • Transcription and ARS activity
  • Transcription factors and control of DNA replication
  • Chromatin remodeling
  • Direct facilitation of origin function by recruitment of replication proteins
  • Effect on DNA structure at origins: DNA bending
  • Tethering of regulatory molecules to origins.